NO155072B - DEVICE FOR FIRE FIGHTING FOR EXPLOSIVE CHARACTERISTICS, INTENDED FOR REVERSE BETWEEN IMMEDIATE AND DELAYED EXPLOSION OF THE EXPLOSION CHARGING. - Google Patents

Description

The present invention relates to a device

which is included in a fire tube for a projectile with an explosive charge

ning and serves to switch between immediate and delayed ignition of the explosive charge.

In such a device there are usually two separate

rate ignition circuits, namely a first ignition circuit, which serves for direct ignition and most often consists of an electric

tric circuit with igniters, and another ignition circuit, which serves for delayed ignition and e.g. consists of a pyrotechnic ignition chain.

The ignition circuit for delayed ignition is usually permanently engaged. The direct ignition ignition circuit is normally inoperative in that its igniters are shorted. Conversion to immediate ignition is then carried out by breaking the aforementioned short circuit so that the lighter is connected to the aforementioned electrical circuit.

Switching between delayed and immediate ignition

previously known projectiles of the aforementioned kind have been carried out by external influence, e.g. by manually changing the position of an organ that passes through the casing of the igniter capsule before the charge or automatically during this or also at launch. The used mecha-

low and sometimes electrical devices both inside and outside the projectile have been both complicated and vulnerable.

Swiss patent document 620 765 describes a projectile with a choice between direct and delayed ignition, in that an electrical contact member in the form of a ball under the action of the acceleration forces can move in the longitudinal direction of the projectile from a first position where the ball short-circuits an electric igniter, to another position where the bullet breaks the short circuit. Such a contact means results in an uncertain function since the ball's position and movement cannot always be controlled.

The purpose of the invention is therefore to provide a simpler and more reliable device for switching between delayed and immediate ignition. The purpose is achieved by the fact that the device in accordance with the invention has been given characteristics as stated in patent claim 1.

With the invention, it is achieved that the shooter before launching of. the projectile can choose between delayed and immediate ignition simply by choosing the appropriate orientation of the projectile in the barrel.

During a first orientation of the projectile, the locking device takes such a position that it prevents the electrical contact device from moving from the first to the second position, whereby the igniter remains short-circuited so that when the projectile hits a target, delayed ignition of the explosive charge occurs.

In another orientation of the projectile, the blocking device falls away so that the contact device can move due to the acceleration forces to the other position, where it is held back by the fastening device, so that the detonator's short circuit is broken and there, on impact, immediate ignition of the explosive charge occurs.

The invention will be described in more detail below with reference to the drawing, which shows the device according to the invention in a preferred embodiment. Fig. 1 is a perspective X-ray view of a fire pipe with a device according to the invention.

Fig. 2 shows an X-ray view of the device in fig.

1 seen from the side during a first orientation of the projectile in the rest position. Fig. 3 shows a section along the line after III-III in fig. 2. Fig. 4 shows an X-ray view corresponding to fig. 2, but in the launch phase of the projectile.

Fig. 5 shows a section along the line V-V in fig. 4.

Fig. 6 shows an X-ray view corresponding to fig. 2,

but with the projectile turned 180° on its axis.

Figs 7 and 8 show sections along the line respectively

VII and VIII in fig. 6.

Fig. 9 shows an X-ray view corresponding to fig. 6,

but in the projectile's launch phase.

The projectile's firing direction is marked in the figures with an arrow S.

Fig. 1 schematically shows a fire tube 1, which is intended to be screwed into a projectile body, not shown. The ignition circuit for immediate ignition consists of an electrical circuit with a current source 2, e.g. a piezoelectric generator, the plus pole of which is connected via a conductor 3 to an input connection 4 to a switching device according to the invention, generally designated 5. The switching device 5 has an output connection which is made up of a movable contact member in the form of a piston 6, which on one side is connected with the input connection 4 and, on the other hand, with the fire pipe's goods, as in fig. 1 is marked with an earth symbol.

A schematically indicated igniter 7 is connected between the conductor 3 and the goods of the fire pipe. The negative pole of power source 2 is likewise connected to the fire pipe's load, so this serves as a return conductor in the ignition circuit. The method of igniting an explosive charge using detonators is generally known and used and will therefore not be described here. For the same reason, it is also not considered necessary to mark the location of the explosive charge on the drawing.

The ignition circuit for delayed ignition is not shown in the drawing. It can e.g. in a known manner, consists of a pyrotechnic ignition chain with a delay rate, which is initiated mechanically when the projectile hits a target.

The switching device 5 includes a flat housing whose opposite wide sides are formed by two round plates 5a and 5b which are joined together and consist of an electrically insulating material, such as e.g. translucent plastic. The center axis of the flat round housing 5 is oriented at right angles to the longitudinal axis of the projectile.

Between the plates 5a and 5b there is inserted a circular contact plate 8, which forms the aforementioned input connection 4 in the electrical ignition circuit with a cut-out tongue with a spring-loaded contact against the conductor 3. The can 8 has a slightly smaller diameter than the housing 5, so it has a certain distance from the fire pipe's goods and is thus isolated from this.

The piston 6 is formed by a look that is bent out into an L shape, and which under the action of acceleration forces exerted on the projectile, and against the action of a spring 9 can move backwards in a channel 10, which is taken out in the housing 5 and extends parallel to the longitudinal axis of the projectile.

The long leg of the L-shaped piston 6 extends

in the longitudinal direction of the channel 10, while its shorter leg 6a, which lies at the back, is bent out at a right angle. The rear part of the channel 10 is therefore widened to allow displacement of the piston 6.

The long leg of the piston 6 is provided with a bent up tongue 11 whose function will be described later. When the tongue 11 is bent up, a recess 12 appears in the piston 6, the function of which will also be described later.

The housing 5 further has a channel 13, which extends across the recess 12 at right angles to the channel 10 and displaceably accommodates a locking device in the form of a pin 14. The channel 13 has a slightly larger diameter than the pin 14, so this can easily be displaced in the.

The function of the locking member 14 is, in a first orientation of the projectile, to cooperate with the tongue 11 to prevent the piston 6 from moving from the position in fig. 2. In a practical implementation, it is appropriate, as it i.a. can be seen from fig. 6, to allow the pin 14 to move a small distance d from the tongue 11, so that its displacement in the channel 13 is not inhibited. When acceleration forces occur, the piston 6 can then move the distance d until the tongue 11 is stopped by the pin 14, as shown in fig. 9. As the acceleration decreases,

the piston returns to the position in fig. 6 under the action of the spring 9. The contact plate 8 is provided with an L-shaped tongue 15, which in the projectile's resting position rests spring-loaded against one side of the piston 6.

The operation of the adjustment device 5 is as follows: If the shooter wishes to set the immediate ignition of the explosive charge, he orients the projectile so that the pin 14 falls under its own weight into one position of the channel 10, namely the one shown in fig. 1 and 2. When the projectile is fired, acceleration forces occur which drive the piston 6 backwards. The locking device (pin 14) then does not prevent the movement of the piston 6, since the tongue 11 clears the pin 14. When the piston 6 has moved so far backwards that the tongue 15 is located directly outside the recess 12 in the piston 6, the tongue 15 snaps into this recess 12 so that the piston 6 is locked in this position (cf. fig. 4 and 5). The electrical contact between the piston 6 and the material of the fire pipe 1 is now broken, i.e. the power source 2 is connected to the igniter 7, so that when the projectile hits the target, direct ignition of the (not shown) explosive charge occurs.

If, on the other hand, the shooter wishes to set a delayed ignition of the explosive charge, he rotates the projectile 180° about its longitudinal axis. The pin 14 then falls into the lower end of the channel 14 - cf. fig. 6 - so it now lies in the way of the tongue 11. When the projectile is launched, the piston 6 moves the distance d until the tongue 11 hits the pin 14 - cf.

fig. 9 - so the piston 6 is prevented from moving further. As soon as the acceleration ceases, the piston 6 returns to the position in fig. 6 under the action of the spring 9. The piston 6 thereby again comes into contact with the fire pipe material, so the igniter 7 remains short-circuited and there thus occurs delayed ignition of the explosive charge via the ignition circuit for delayed ignition, not shown.

In a modified embodiment of the invention, the piston 6 can be replaced with a ball or with a member that slides on a rail.

Claims (2)

1. Device (5) in a fire tube (1) for a projectile with an explosive charge, intended for switching between immediate and delayed ignition of the explosive charge, comprising an electrical contact member (6), which is movable in the longitudinal direction of the projectile and other effects of acceleration forces exerted on the projectile , seeks to move from a first position where it short-circuits an igniter (7) for the explosive charge, to another position where it breaks this short circuit, characterized by a blocking member (14) which is designed to prevent the contact member (6) from moving to the second position in a determined first orientation of the projectile, and in a determined other orientation of the projectile to fall away under the action of gravity and thereby allow the contact member (6) to move to the other position under the action of the aforementioned acceleration forces, at the same time that a fastening member (15) or the like is arranged there. to prevent the contact member from returning from the second to the first position. 2. Device as set forth in claim 1, characterized in that the locking member has the form of a pin (14) which is movably arranged in a channel (13), and which, depending on the orientation of the projectile in the course, as a result of its weight, positions itself in different parts of the channel.